US3573780A - Automatic telephone alarm system - Google Patents

Abstract

An alarm actuating circuit is disclosed for monitoring the condition of a communication line. As long as a line potential exists, an amplifier is cut off. In the case of a short circuit, open fault on the line or grounding of the battery side of the input to the communication line, the cut off no longer exists and the amplifier closes a relay to sound an alarm. The line current required is so small as to be negligible.

Description

United States Patent Franklin C. Butterbaugh 409 Newburg Ave., Baltimore, Md. 21228 763,092

Sept. 27, 1968 Apr. 6, 1971 Inventor Appl. No. Filed Patented AUTOMATIC TELEPHONE ALARM SYSTEM 4 Claims, 1 Drawing Fig.

US. Cl 340/248, 179/5 Int.Cl G08b 21/00 Field of Search 340/248 [56] References Cited UNITED STATES PATENTS 3,320,473 5/1967 Grafham 340/248 3,392,379 7/ l 968 Thomason et al. 340/248 Primary Examiner-Richard Murray Assistant Examiner-Barry Leibowitz AttorneyWalter G. Finch PATENTEU APR 6 i971 INVENTOR FRA NKLIN C. BUTTERBAUGH ATTORNEY 'the central office-equipment merely gives a normal ringing signal whereas there actually exists an open line.

It, therefore, is an object of this invention to providean automatic alarm arrangement for a subscriber communication circuit which will assure the ready condition of service by warning of any abnormal conditions.

Another object of this invention is to provide a bridging type high impedance alarm circuit for monitoringthe condition of central battery telephone lines or burglar alarms.

Other objects and attendant advantages of the invention will become more readily apparent and understood from the following detailed specification and accompanying drawing which is a circuit diagram of a preferred embodiment of the present invention.

Referring now to the drawing, the automatic telephone alarm of the present invention has a pair ofinput terminals 11 and 12. Theseinput terminals 11 and 12. are connected across a two conductor telephone line 13 or other line which has a central battery and is to be monitored.

For periodically testing the alarm, aswitch 14 is provided in the input and also is useful in assuring the proper connection to the line, polaritywise, in the initial set up.

Further in the input, a low-pass filter is incorporated and comprisesresistors 15 and 16' and a capacitor 17. This filter prevents the false sounding of an alarm from the usual transients on the line occasioned by the normal use of the telephone. Further theresistors 15 and 16 provide high impedance at all times to the telephone line 13 to avoid loading it abnormally by the base of a followingtransistor 18.

Next in the circuit there is connected withtransistor 18, atransistor 19 in 'a high gain, Darlington amplifier arrangement. The collectors of thesetransistors 18 and 19 connect to the base ofaswitching transistor 20 which has arelay coil 21 in its collector output. Aprotective diode 22 for suppressing inductive surges from thecoil 21 is included as shown in the emitter oftransistor 20.

Thepower supply 23 of this automatic telephone alarm essentially consistsof a low voltage secondary battery 24. The battery 24 is trickle charged throughresistor 25 from apower transformer 26 andrectifier diode 27. Battery 24 is included in thepowersupply 23 as a fail safe feature in the event the AC current feedway, thepower transformer 26 and therectifier diode 27 is lost or'cut off. The smoothingfilter comprising resistor 28 andcapacitor 29 is included to assure no hum or transients from thepower line 30 will pass on the amplifying transistors l8 and l The alarm itself,general reference numeral 31 is designed to give a signal which is distinctive above a bell. The pair oftransistors 32, 33 are connected together regeneratively through the series connection of a resistor 34 andcapacitor 35. The resulting oscillatory voltage is fed to aloud speaker 36, giving a harsh attention-arousing tone whenever therelay COll 21 is energized and itscontact 37 closes.

ln operation, thetransistors 18 and I9 normally receive a turn-on bias from the line 13 and theswitching transistor 20 receives a cutoff bias through the clamping of the base oftransistor 20 to a low level (saturated voltage) bytransistors 18 and 19. Only a meager current flows throughresistor 38 andtransistors 18 and 19 thus making the system very economical. Should the telephone line 13 open somewhere, short circuit, or be grounded in the battery side of the input to the telephone line 13, the common battery voltage thereof is lost at thetransistors 18 and 19 and they cease conducting; allowingtransistor 20 to be turned on by the bias provided byresistor 38.

This current throughresistor 38 causes a bias change of input to switchingtransistor 20 causing it to conduct. The circuit thus established causesrelay 21 to close itscontact 37 to deliver current from thepower supply 23 to thealarm 31 and cause it to sound a warning.

Another use for this invention is in the form of a burglar alarm where the line 13 is a fine wire or tinfoil strip and an associated bias battery replaces the common battery of the telephone line previously mentioned. The fine wire or strip is rigged as two conductors across windows or spaces where an intruder is likely to break them. The broken (or shorted) wire or strip, in similarity to the broken or shorted telephone line 13, operates the alarm as previously explained. It is pointed out that most burglar alarms which function from a broken wire or strip can be defeated by shorting the line. This will sound the alarm if either a break or short occurs.

Obviously many modifications and variations of the present invention are possible in light of the above teachings. It is, therefore, to be understood that within the scope of the appended claims the invention may be practiced otherwise than as specifically described.

lclaim:

1. An alarm 'circuit system for signalling attenuation of a potential between communications lines, comprising: amplifier means adapted for biased cutoff by said potential between the communications lines and connected to the said lines for receiving cutoff bias by the said potential therebetween, said amplifier means including a solid-state device and a low-pass high impedance phase-changing circuit bridging said communications lines, alarm means responsive to the said amplifier means, and power supply means connected to all said amplifier and alarm means, whereby attenuation of the potential between the said communications lines terminates the amplifier cutoff bias causing the amplifier to become actuated by the power supply and to'operate the said responsive alarm means thereby signalling said attenuation of the potential.

2. An alarm circuit system as recited in claim 1, and additionally a test switch adapted to reverse the polarity of said bridging of the amplifier means circuit across the communications lines.

3. An alarm circuit system as recited in claim 2, wherein said alarm means includes a normally-open contact relay energized to close the contact by output of the amplifier means on termination of the said cutoff bias, an oscillator circuit adapted for connection to the power supply through a contact of the said responsive relay on termination of the cutoff bias, and a radio speaker in the oscillator circuit responsive to oscillations thereof on said connection with the power supply, for signalling attenuation of the said potential.

4. An alarm circuit system as recited in claim 3, wherein said power supply includes an isolation transformer, a battery, and a rectitier circuit including a filter between said transformer and battery.

Claims (4)

1. An alarm circuit system for signalling attenuation of a potential between communications lines, comprising: amplifier means adapted for biased cutoff by said potential between the communications lines and connected to the said lines for receiving cutoff bias by the said potential therebetween, said amplifier means including a solid-state device and a low-pass high impedance phase-changing circuit bridging said communications lines, alarm means responsive to the said amplifier means, and power supply means connected to all said amplifier and alarm means, whereby attenuation of the potential between the said communications lines terminates the amplifier cutoff bias causing the amplifier to become actuated by the power supply and to operate the said responsive alarm means thereby signalling said attenuation of the potential.

2. An alarm circuit system as recited in claim 1, and additionally a test switch adapted to reverse the polarity of said bridging of the amplifier means circuit across the communications lines.

3. An alarm circuit system as recited in claim 2, wherein said alarm means includes a normally-open contact relay energized to close the contact by output of the amplifier means on termination of the said cutoff bias, an oscillator circuit adapted for connection to the power supply through a contact of the said responsive relay on termination of the cutoff bias, and a radio speaker in the oscillator circuit responsive to oscillations thereof on said connection with the power supply, for signalling attenuation of the said potential.

4. An alarm circuit system as recited in claim 3, wherein said power supply includes an isolation transformer, a battery, and a rectifier circuit including a filter between said transformer and battery.

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